5,076 research outputs found
El aprendizaje del Derecho a travĂ©s de la jurisprudencia: propuesta de una metodologĂa aplicable a distintas disciplinas jurĂdicas
In this study is proposed an educational innovation that consists of using sentences in order to learn Law. The student has to learn by means of study of sentences that have been chosen carefully. As well as learning legal knowledge, students can also learn technical skills, which will be very important in their career.La metodologĂa que proponemos se basa en el estudio y trabajo sobre resoluciones judiciales. El alumno debe adquirir los conocimientos jurĂdicos contrastando cĂłmo se aplican las normas en la prĂĄctica. Se trata de una metodologĂa activa que permite formar al alumno en competencias y habilidades propias del trabajo con jurisprudencia: desde la consulta y bĂșsqueda en bases de datos, pasando por la lectura ĂĄgil y correcta de sentencias, hasta su anĂĄlisis y la realizaciĂłn de anĂĄlisis jurisprudenciales mĂĄs extensos
A geometric approach to phase response curves and its numerical computation through the parameterization method
The final publication is available at link.springer.comThe phase response curve (PRC) is a tool used in neuroscience that measures the phase shift experienced by an oscillator due to a perturbation applied at different phases of the limit cycle. In this paper, we present a new approach to PRCs based on the parameterization method. The underlying idea relies on the construction of a periodic system whose corresponding stroboscopic map has an invariant curve. We demonstrate the relationship between the internal dynamics of this invariant curve and the PRC, which yields a method to numerically compute the PRCs. Moreover, we link the existence properties of this invariant curve as the amplitude of the perturbation is increased with changes in the PRC waveform and with the geometry of isochrons. The invariant curve and its dynamics will be computed by means of the parameterization method consisting of solving an invariance equation. We show that the method to compute the PRC can be extended beyond the breakdown of the curve by means of introducing a modified invariance equation. The method also computes the amplitude response functions (ARCs) which provide information on the displacement away from the oscillator due to the effects of the perturbation. Finally, we apply the method to several classical models in neuroscience to illustrate how the results herein extend the framework of computation and interpretation of the PRC and ARC for perturbations of large amplitude and not necessarily pulsatile.Peer ReviewedPostprint (author's final draft
Hyper-chaotic magnetisation dynamics of two interacting dipoles
The present work is a numerical study of the deterministic spin dynamics of two interacting anisotropic magnetic particles in the presence of a time-dependent external magnetic field using the LandauâLifshitz equation. Particles are coupled through the dipoleâdipole interaction. The applied magnetic field is made of a constant longitudinal amplitude component and a time-dependent transversal amplitude component. Dynamical states obtained are represented by their Lyapunov exponents and bifurcation diagrams. The dependence on the largest and the second largest Lyapunov exponents, as a function of the magnitude and frequency of the applied magnetic field, and the relative distance between particles, is studied. The system presents multiple transitions between regular and chaotic behaviour depending on the control parameters. In particular, the system presents consistent hyper-chaotic states
Serendipitous discovery of the long-sought AGN in Arp 299-A
Context: The dusty nuclear regions of luminous infra-red galaxies (LIRGs) are
heated by either an intense burst of massive star formation, an active galactic
nucleus (AGN), or a combination of both. Disentangling the contribution of each
of those putative dust-heating agents is a challenging task, and direct imaging
of the innermost few pc can only be accomplished at radio wavelengths, using
very high-angular resolution observations. Aims: We observed the nucleus A of
the interacting starburst galaxy Arp 299, using very long baseline
interferometry (VLBI) radio observations at 1.7 and 5.0 GHz. Our aim was to
characterize the compact sources in the innermost few pc region of Arp 299-A,
as well as to detect recently exploded core-collapse supernovae. Methods: We
used the European VLBI Network (EVN) to image the 1.7 and 5.0 GHz compact radio
emission of the parsec-scale structure in the nucleus of Arp 299-A with
milliarcsecond resolution. Results: Our EVN observations show that one of the
compact VLBI sources, A1, previously detected at 5.0 GHz, has a flat spectrum
between 1.7 and 5.0 GHz and is the brightest source at both frequencies. Our
1.7 GHz EVN image shows also diffuse, low-surface brightness emission extending
westwards from A1 and displays a prominent core-jet structure. Conclusions: The
morphology, radio luminosity, spectral index and ratio of radio-to-X-ray
emission of the A1-A5 region is consistent with a low-luminosity AGN (LLAGN),
and rules out the possibility that it is a chain of young radio supernovae
(RSNe) and supernova remnants (SNRs). We therefore conclude that A1-A5 is the
long-sought AGN in Arp 299-A. This finding may suggest that both starburst and
AGN are frequently associated phenomena in mergers.Comment: Accepted for publication in Letters to Astronomy and Astrophysics on
12 August 2010. 4 pages, 1 figur
POSTURAL STABILITY IN PERSONS WITH CEREBRAL PALSY AND ITS RELATIONSHIP WITH THE PERfORMANCE IN VERTICAL JUMPING
The main purpose of this study was to evaluate the quality of postural stability of persons affected by different symptoms of cerebral palsy, and, on the other hand, to determine its relationship with the level of the neuromuscular potential of the subjects, evaluated on the base of their performance in the two-legged countermovement jump. The obtained results confirmed, first, significant differences between the subjects affected by hemiplegia and those affected by tetraparesis concerning the quality of postural stability, and, second, that the higher capacity for neuromuscular activity of the lower extremities is correlated with more stable posture. In this way, muscle strength seems to be a limiting factor in standing posture
Decoherence in an accelerated universe
In this paper we study the decoherence processes of the semiclassical
branches of an accelerated universe due to their interaction with a scalar
field with given mass. We use a third quantization formalism to analyze the
decoherence between two branches of a parent universe caused by their
interaction with the vaccum fluctuations of the space-time, and with other
parent unverses in a multiverse scenario.Comment: 11 pages, 2 figure
Crossover in the nature of the metallic phases in the perovskite-type RNiO_3
We have measured the photoemission spectra of NdSmNiO,
where the metal-insulator transition and the N\'{e}el ordering occur at the
same temperature for and the metal-insulator transition
temperature () is higher than the N\'{e}el temperature for . For , the spectral intensity at the Fermi level is high in the
metallic phase above and gradually decreases with cooling in the
insulating phase below while for it shows a pseudogap-like
behavior above and further diminishes below . The results
clearly establish that there is a sharp change in the nature of the electronic
correlations in the middle () of the metallic phase of the
NiO system.Comment: 4 pages, 4 figure, submitted to Phys. Rev.
Toxoptera citricida or Toxoptera citricidus? The validity of a specific name (Hemiptera, Aphididae, Aphidini)
P. 141-142The âtropical citrus aphidâ, âoriental black
citrus aphidâ or âbrown citrus aphidâ âin Spanish:
âpulgĂłn cafĂ© de los cĂtricosâ, in Portuguese:
âpulgĂŁo preto dos citrosâ, in French âpuceron tropical
de lâorangerââ is now a very important pest
on Citrus spp. and other species of the family
Rutaceae and can live also on other wild and cultivated
plantsS
Self-control of a lively footbridge under pedestrian flow
Congreso celebrado en la Escuela de Arquitectura de la Universidad de Sevilla desde el 24 hasta el 26 de junio de 2015.In this paper, a case study about a lively footbridge is developed; the vibration levels caused by the
pedestrian action are controlled by the change of the modal parameters of the structure due to the
pedestrian-structure interaction. A detailed finite element model of the structure has been updated
from an operational modal analysis. The updated model has been used to obtain the numerical
acceleration at the mid-span of the footbridge under different pedestrian flows. A relation between
the maximum acceleration and the pedestrian density on the deck has been obtained numerically,
pointing out an improvement in the comfort level of the structure when the number of pedestrians
increases. This result validates a design rule for cable-stayed footbridges in order to avoid vibratory
problems, since the first vertical natural frequency of the structure remains below the range that
characterizes the pedestrian walking action
- âŠ